Abstract
Natural floodplain ecosystems are adapted to highly variable hydrologic regimes, which include periodic droughts, infrequent large floods, and relatively frequent periods of inundation. To more effectively manage water resources and maintain ecosystem services provided by floodplains – and associated aquatic, riparian, and wetland habitats – requires an understanding of seasonal and inter-annual hydrologic variability of floodplains. The Cosumnes River, the largest river on the west-slope Sierra Nevada mountains without a major dam, provides a pertinent test case to develop a systematic classification of hydrologic variability. By examining the dynamics of its relatively natural flow regime, and a 98-year streamflow record (1908 – 2005), we identified 12 potential flood types. We identified four duration thresholds, defined as short (S), medium (M), long (L), and very long (V). We then intersected the flood duration division by three magnitude classes, defined as small-medium (1), large (2), and very large (3). Of the 12 possible flood types created by this classification matrix, the Cosumnes River streamflow record populated 10 such classes. To assess the robustness of our classification, we employed discriminant analysis to test class fidelity based on independent measures of flood capability, such as start date. Lastly, we used hierarchical divisive clustering to classify water years by flood type composition resulting in 8 water year types. The results of this work highlight the significant seasonal and inter-annual variability in natural flood regimes in Central Valley rivers. The construction of water impoundment and flood control structures has significantly altered all aspects of the flood pulse. Restoring floodplain ecosystem services will require re-establishing key elements of these historic flood regimes in order to achieve regional restoration goals and objectives.
Highlights
BackgroundFloodplains are among the most productive and diverse ecosystems on Earth; they are some of the most impacted and at risk ecosystems globally (Tockner and Stanford 2002), affected by myriad anthropogenic stressors and consumptive demands
The gage at Michigan Bar (MHB) is located approximately 50 km upstream of the floodplain reference site on the Cosumnes River Preserve, it accurately predicts flood conditions on the floodplain due to very little streamflow being added downstream of Michigan Bar. This point is illustrated by comparing annual streamflow volumes at MHB with the Cosumnes River at McConnell gage (MCC) that was rated by the USGS for discharge from 1941 – 1982 (USGS 2005)
For the Cosumnes River, we found no trend for the center of mass of annual flow, which is most likely because the Cosumnes River is a lower elevation watershed with less snowpack compared to most westslope Sierran rivers; snowmelt is not as large of a contributor to the annual streamflow volume
Summary
Floodplains are among the most productive and diverse ecosystems on Earth; they are some of the most impacted and at risk ecosystems globally (Tockner and Stanford 2002), affected by myriad anthropogenic stressors and consumptive demands. Natural floodplain ecosystems are adapted to highly variable hydrologic regimes, which include periodic droughts, infrequent catastrophic floods, and relatively frequent periods of inundation (Lytle and Poff 2004). The connectivity of floodplains to river systems is a critical linkage that creates and maintains a mosaic of habitats for primary productivity (Ahearn et al in review), the reproductive cycle of fishes (Ribeiro et al 2004; Sommer et al 2004), nesting and foraging of birds (Saab 1999), and regeneration of riparian vegetation (Tabacchi et al 1998). The ‘natural flow’ paradigm (Poff et al 1997; Bunn and Arthington 2002), a synthetic approach to better reconciling competing demands between environment and society, emphasizes the importance of natural intra-annual and inter-
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